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CNS-UCSB Traveling Technologies Research Template
Introduction to the Value Chain Approach for
Nanotechnology in Society Research
Dr. Stacey Frederick
Overview: This project was designed for an 8-week summer internship program, but can be
adopted and adapted for a variety of research or teaching contexts. This guide will take you
through the steps involved in conducting a value chain analysis of a nanomaterial or nano-
enabled product. First, we present this overview of the research framework and an introduction
to value chains concepts. Next is a detailed, step-by-step plan for conducting your value chain
analysis. An example analysis with nanosilver is available in a separate document as part of the
Template package. And visit the links provided below for examples of ways to represent a value
chain graphically.
The big picture of the project is as follows:
First you will identify who and what:
o What are the activities, products, and markets in the nanomaterial value chain?
o Who are the firms and countries engaging in these activities for each stage of the
product life cycle?
o Create a value chain diagram to graphically show the who and what
Next you will investigate how and why:
o Why are these firms and countries important?
o How do powerful firms and institutions (or lack thereof) influence the location and
success of products and markets throughout the innovation to commercialization life
cycle of specific nanomaterials or products?
You may also have an associated research question that can be addressed through your
value chain analysis. Some examples of research areas include:
o Historical Perspective: Did the nanomaterial or final product exist before? How
is the nanomaterial enabling new products or existing current products? Can you
conduct comparative analyses with other technologies?
o Research and Development or Innovation: Where is innovation coming from -
corporations, universities, community colleges, research centers, start-ups? What
are the barriers to innovation along the value chain?
o Intellectual Property: IP issues, scope, sources and number of patents
o Public Perception/Consumers: Investigate consumer issues, environmental
health and safety issues at different points in the value chain.
As you complete the project, keep in mind that the information you collect can be used to
develop the content for a website/webpage similar to the layout of NC in the Global
Economy.
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PART I: Introduction to Concepts Related to Value Chains
1. A Value Chain as an Organizational Structure
2. The Value Chain Research Approach (Mapping & Analysis)
3. The Global Value Chain Research Framework
1. Structure: What is a value chain? A value chain is a structure that can be used to
categorize and organize factors related to industrial organization: the activities, places
and firms involved in making a product or service. A value chain includes the full range
of activities that firms and workers do to bring a product or service from its conception to
its end use and beyond. This includes the activities related to producing & transporting
the product (supply chain), as well as other value-adding activities such as research,
design, marketing, and support services. The activities that comprise a value chain can be
contained within a single firm or divided among different firms. Value chain activities
can be contained within a single geographical location or spread over wider areas. The
value chain concept encompasses all stages in the innovationcommercialization
process.
o Full Range of value-adding activities/business functions includes: R&D, Design,
Production, Logistics, Marketing, & Services
o The supply chain/product life cycle stages includes: inputs, components, final
products, distribution/sales, disposal/recycling
2. Research Approach: What is a value chain approach? A value chain approach uses the
value chain concept as the organizational structure to carry out a research process. A
value chain approach includes:
o Mapping the internal and external linkages and geography of the chain (input-
output and geography) and
o Identifying dynamic variables, including governance, inter-firm relationships,
upgrading, and institutions, which affect the outcomes and structural changes of
the chain over time.
a. Mapping: What is value chain mapping? Value chain mapping provides a
comprehensive view of the geography and activities of stakeholders involved from
taking a good or service from raw material to production, and then to the consumer.
Value chain mapping includes activities internal (firms) and external (business and
sector-specific environment) to the chain, and is represented in graphical form.
Below is a general nanotechnology value chain graphic as an example.
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b. Analysis: What is value chain analysis? Value chain analysis seeks to determine the
role that various factors play in influencing the location, development and
competitiveness of a product or service.
o Value Chain Structure: Who performs the value-adding activities? Where do
these activities take place?
o Value Chain Dynamics: Which activities, organizations, and firms hold the most
power in the chain? Why are they located in a certain location?
Benefits: The value chain approach provides a distinction among macro, meso, and micro
units of analysis used to analyze the global economy and a way to see how each factor
influences the others.
o On the macro level, it seeks to understand the roles and impacts of international
institutions, organizations and standards on how and where new and existing products
and technologies are developed and located;
o On the meso level, it seeks to understand the types and impacts of inter-firm
relationships and national institutions (i.e. industrial policy) on economic
development and a product‟s innovation to commercialization lifecycle.
o On the micro level, it seeks to understand how individual firms and the attributes of a
particular product create opportunities or risks to the development of the industry,
technology, or the development of such within a particular geographic location.
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3. Research Framework: What is the Global Value Chain (GVC) Research Framework?
The GVC research framework is divided into four building blocks that can be used to
describe the structure, dynamics, and the relationships among stakeholders in global
value chains. These four building blocks can be translated into steps used to carry out a
value chain research approach & analysis.
Building Blocks 1 & 2: Value Chain Mapping: Determine what exists and where it is
located (economic organization): includes a process and methods to be used to
identify and map the structural elements of the value chain, including potential
qualitative and quantitative secondary & primary data sources.
1) Input-output: who are the stakeholders (public and private) that currently or have
the potential to develop or commercialize nano-scale materials, products and
technologies? Steps and topics include:
o Determine ways and resources to classify and collect information on
products, markets, and firms
o Conduct secondary and primary research on firms
2) Geography: where do each of the links and functions in the value chain take place
around the world?
o Determine resources and methods that can be used to compare where
firms, products, and markets are located (similar to above on an
international level)
o Determine a nation‟s footprint in the nanotechnology value chain
Building Blocks 3 & 4: Analysis of value chain dynamics: Determine how and why
the current economic organization exists and how it might evolve in future by
analyzing inter-firm relationships and institutions. At this point, actions and activities
such as nanotechnology regulation, or offshoring of production to low-wage
countries, can be compared to the value chain over time to investigate the impact of
these societal factors on the technology.
3) Governance & Inter-firm linkages: who are the most powerful, innovative firms
in the value chain? What relationships exist among stakeholders in the chain?
How do firms shape value chain structure?
o Determine how and if relationships differ by product, market, and/or
geography
o Identify important product and firm attributes and impacts on economic
development and product commercialization.
o Identify obstacles to inter-firm linkages
o Identify quantitative data points to measure innovation and power: may
include patent, publication, funding or market data analysis
4) Institutions & Industrial Policy: what are the roles and impacts of political and
social; local, national and international institutions and stakeholders?
o Compare industrial policy and its effectiveness across key countries
focusing on nanotechnology: How did this develop historically & how is it
playing out currently in terms of market- vs. state-driven
o Identify the impact of the media and public and risk perception on
acceptance
o Identify environmental, health, and human safety risks and regulations (or
lack-thereof)
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Websites with more information on value chains and the value chain approach to research:
Global Value Chains Initiative & Papers
Handbook for Value Chain Research
International Labor Organization (ILO) Value Chain Approach Guide
USAID Value Chain Briefing Papers & Wiki
USAID Value Chain Approach
VCA for Policymakers & Practitioners
WORKS project
World Bank Value Chain Approach
Broader implications: enhance the value chain approach with your results
Due to the broadness, complexity, and general confusion surrounding nanotechnology-
related topics, developing a comprehensive research approach and effective ways to present your
results are just as important as your results. As part of the project, you may want to do the
following:
Keep track of your resources to add to the Value Chain Approach steps: a value
chain approach for nanotechnology research topics currently exists in very limited form –
you are breaking new ground! The following steps are only a basic outline. Since very
few value chain analyses of nano-related topics have been conducted, keeping track of
your work is very important for future projects. Further development of the process will
enhance future projects and fulfill the need for the market interested in understanding and
evaluating topics related to nanotechnology ranging from potential environmental, health,
and risk impacts to understanding the innovation to commercialization lifecycle.
Think about how you can effectively present and communicate your research to
others. This may include:
o Visuals & visual analytic applications that present your data in a holistic, yet
systematic and simple way (a picture is worth a thousand words):
o Visual representation of the supply chain (static or dynamic): Examples of dynamic
value chain visuals include the value chains on the NC in the Global Economy
website. The value chains can also be used as an organizational structure to organize,
store, and categorize information (e.g. NC Textile Connect and SC Textile Connect).
o Website: As you collect data, think about formatting it so it can be used to create a
website similar to NC in the Global Economy.
o Geospatial mapping: programs such as Google Earth, Google Maps, GIS, can be used
to show spatial maps of patent data, publication data, or firms. Examples:
NC in the Global Economy: Google Earth & Google Maps of Population of
Firms (bottom of page)
NC in the Global Economy: Google Earth & Google Maps of Leading/Largest
Firms (bottom of page)
o Geospatial mapping to track a product or process life cycle: Two applications that do
this are Patagonia's Footprint Chronicles (examples of global value chains/networks)
and Cotton of the Carolina's: Dirt to Shirt (examples of local value chains/production
networks). In each of these, companies throughout the supply chain are mapped with
emphasis on environmental implications at each stage.
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PART II: Nanotechnology Value Chain Research Approach:
Steps & Resources
This section of the guide walks you step-by-step through researching a complete value chain for
a specific nanomaterial or nano product. There are a lot of details, so stay organized! You can
use the Word document “TravelingTech_Steps_Outline.doc” as a digital worksheet to help you,
which contains the headings from this part of the guide so that you can fill in the information as
you go. Also, note that some of the resources listed here (full references are at the end of this
document) may not be available to you. Check with your mentor and your library if you have
questions about access. As a final note, the amount of detail you go into for different parts of the
value chain is up to you. If you have limited time and resources, you may want to choose one
area of the value chain to focus on. If you are part of a team, each member of the team can
choose an area to investigate.
Things to identify before you begin: (if you are working in a team, all members should identify
these in order to have a common knowledge base).
Keywords and spellings for your product & industry:
o These can be used as search terms
o Examples of nanotechnology keywords: nanotechnology, nanoparticle, nano-
structure, etc.
Determine the frame of reference for your project (more than one may apply). Is
your project to map… o … the impact of a broad concept (nanotechnology, biotechnology, information
technology, sustainability) on a tangible supply chain?
o … a specific tangible product in which a supply chain and production process can
be determined (e.g. apparel, car, cell phone)?
o …an improvement to an existing product or potential applications for a
completely new product?
o … possible supply chains included in a specific end market or distribution
channel?
o … the stakeholders that create and benefit from an intangible service (e.g.
information providers, logistics firms, tourism operators)?
o … the impact or interactions of an enabling or supporting technology or tool?
Understand the parts of the value chain model and how the supply chain and end
markets fit in: o Understand the five parts of the supply chain and determine the part you are
beginning from: (1) inputs/raw materials; (2) components, (3) final products, (4)
distribution & sales channels, and (5) markets.
o Understand and determine end market channels of final products: consumer/retail
or public-use channels: industrial, institutional (contract, government, hospitality,
medical, etc.).
o Understand the types of distribution channels used to sell/purchase products
throughout the supply chain: (1) direct sales, (2) agents, (3) distributors, (4)
jobbers, (5) other (names may differ for similar functions among industries).
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Understand the phases in the innovation to commercialization process and
determine where your products fit in (Lux, 2004):
1) Phase I: Lab
2) Phase II: Selective Products
3) Phase III: Mass-scale Production
4) Phase IV: Commonplace Use
5) For tangible products, do the input nanomaterials also exist in bulk-form (top-
down) or is the nanomaterial actually created on the nano-scale (bottom-up)?
Identify products, firms, and industry statistics (market size, funding, patents,
publications, etc.) in industry classification systems
o To identify U.S. firms and products:
NAICS: North American Industrial Classification System
SIC: Standard Industrial Classification System: predates NAICS, but still used
o To identify products and countries in international trade:
Standard International Trade Classification (SITC): UN COMTRADE is the
main resource using this system
Harmonized System (HS): global, six-digit product classification system
U.S. Harmonized Tariff System (HTS): administered by the U.S. International
Trade Commission (USITC) for U.S. imports. A similar system called
Schedule B codes are based on the HTS codes, and administered by the U.S.
Census Bureau to measure U.S. exports.
Trade Stats Express and USITC Dataweb: U.S. trade data resources
o To identify patents and firms with patents:
International Patent Classification (IPC) System: version 2009.01
Sections: B: Performing operations; transporting
Subsections: Micro-structural technology; nano-technology
Classes: B82: Nano-technology
Subclasses: B82B: Nano-structures; manufacture or treatment thereof1
Group: B82B 1/00: Nano-structures
Group: B82B 3/00: Manufacture or treatment of nano-structures
U.S. Patent Classification (USPTO): Class 977: Nanotechnology (est. in 2004)
Chinese State Intellectual Property Office (SIPO)
Japanese Patent & Trademark Office (JPTO): Class ZNM: Nano-technology
application technology
European Patent Office Class (EPO): Class Y01N: Nanotechnology
„Y‟: General Tagging of New Technological Developments; „01‟: Broad
Technical Fields Identified by Dimensional Aspects; „N‟: Nanotechnology
Y01N2: Nanobiotechnology
Y01N4: Nanotechnology for information processing, storage or
transmission
Y01N6: Nanotechnology for materials or surface science
Y01N8: Nanotechnology for interacting, sensing or actuating
Y01N10: Nanooptics
Y01N12: Nanomagnetics
1 Subclass does not cover chemical or biological structures provided for elsewhere (e.g. in classes C08 or C12).
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Value Chain Mapping Steps
STEP 1: Read industry overviews, surveys and market reports. Identify the following for
your nanomaterial:
Keywords: keep an ongoing list of keywords for your industry/products. These can be
used as search terms.
Definition
Purpose
History
Properties
Synthesis (production techniques to manufacture)
Key Applications
Drivers of Innovation
Momentum for Commercialization
Challenges
Nanotechnology-Specific Resources to use:
Lux Nanotech Report, 4th & 5th Editions, vol I: Chapter 1: Introduction pg. 1-23
Lux Sizing the Nanotechnology Value Chain (2004)
Plunkett Industry Overview & Glossary of Nanotechnology Terms
CRCnetBASE: NANOnetBASE (Available at UCSB and Duke libraries)
CRS Nanotechnology Policy Primer (2009)
ASTM Terminology for Nanotechnology (2006)
Industry and Market Research Databases:
IBIS Database: search term “nanotechnology” appears in the following 7 industry market
research reports for the U.S. (NAICS in parenthesis): Search performed: May 5, 2009. o Semiconductors (33329a)
o Plastics & Rubber Machinery (33322)
o Electronic & Computer Repair Services (81121)
o Scientific Research & Development (54171)
o Paint Manufacturing (32551)
o Pharmaceutical & Medicine Mfg (32541)
o Battery Mfg (33591)
Industry and Market Reports that do not have nanotechnology-specific reports as of May
2008: Standard & Poor Industry Surveys: Datamonitor and Euromonitor.
STEP 2: Identify Supporting Environment and Institutions
Who else is involved in or has interest in your nanomaterial? Think about who these
stakeholders are, and where they are located. You may identify several for your material from
the list below.
Key Groups of Stakeholders and Activities
Research
Finance and Funding
Risk and Safety
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Intellectual Property
Standards and Testing
Training and Education
Economic Development
Categories of Stakeholders:
Government
Industry Associations
Universities, Community Colleges, K-12
NGOs
Business, Technology, and Service Providers
Geographic Levels of Scope:
International, Regional, National, and Local
Resources:
Plunkett‟s Organizations and Associations Database (2008 & 2010)
NSTC-NSET NNI Workshop Results: Regional, State, and Local Nanotechnology
Initiatives (2003) & (2009)
STEP 3: Identify firm participants
Which companies are involved with your nanomaterial? To keep yourself organized, you may
want to make a spreadsheet like this one to fill in key information for each firm.
Databases of Nanotechnology-Related Firms:
Lux Nano Reports, 4th & 5th Editions, vol. II: Company Profiles
Plunkett's Nanotechnology Company Listings: 2008 and 2010
Plunkett Associations & Organizations Listings: 2008 and 2010
Woodrow Wilson Center Consumer Product Inventory
Once you identify the names of products or firms, you can access these databases via the library
website or in hard copy at the library for company/product data. If NAICS codes can be
determined, you can identify the population of firms with D&B or ReferenceUSA. If NAICS
cannot be determined, individual firms can also be searched in these databases.
Dun & Bradstreet/Hoovers
Reference USA
Euromonitor
Mergent Industry review
Lexis Nexis Academic: includes access to the following resources: Hoovers, Standard
and Poor's, Value Line Investment Survey, Thomas, and Directory of Corporate
Affiliations
STEP 4: Create the supply chain (see nanotechnology value chain image)
Stage 1: Identify nanomaterial classification from the following list:
Nanoporous materials (zeolites); or
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Nanoparticles: all classifications below can be referred to as forms of nanoparticles.
The nanoparticle classification can be further classified into (Lux):
o Nanoscale in one dimension: flat nanoparticles (i.e. nanoclays)
o Nanoscale in two dimensions: nanotubes, nanowires, etc.
o Nanoscale in three dimensions: spherical nanoparticles
1) Nanostructured Metals: usually refers to upgrading existing alloys: lead (steel)
or cobalt. Can also be a nano-structured version of bulk metal: copper, zinc,
titanium
2) Metal Nanoparticles: silver, gold, aluminum, nickel
3) Ceramic Nanoparticles: includes metal oxides: Titanium dioxide (TiO2), Cerium
oxide (CeO2), Zinc oxide (ZnO2), Iron oxide (FeO2), Silicon dioxide (SiO2),
Aluminum oxide (AlO) and hydroxide (AlOH) and nano clay.
4) Dendrimers 5) Nanowires: wires with diameters less than 100 nm; nano in two dimensions
6) Carbon Nanotubes (CNT): SWNT or MWNT
7) Quantum Dots: nano-sized crystals of semiconductor or metal materials
8) Fullerenes: C60, bucky balls, or buckminster fullerenes
Nanomaterial Resources
o Lux Nanotech Report, 4th & 5th editions, vol. I
o Lux Nano Report, 5th ed., vol. I, Chapter 5: Changing Nanomaterial Marketplace,
pg. 221-239
o Freedonia Focus on Nanomaterials: 2007, 2009, and 2010
Stage 2: Identify nanointermediate classification from the following list (Lux 4th ed.):
Nanointermediates can be classified as (1) intermediates with nanostructured features or
(2) intermediates containing nanoparticles:
o Nanocoatings
o Nanosensors
o Nanotherapeutics
o Nanocomposite materials
o Nano-enabled diagnostics
o Nano-enabled displays
o Nano-enabled drug delivery systems
o Nano-enabled memory
o Nano-enabled solar cells
o Nanointermediates
Resources o Lux Nanotech Report, 5th ed., vol. I: Chapter 3.2 Nanointermediates, pg. 111-168
o Freedonia Focus: Nanocomposites: 2008
Stage 3: Identify nano-enabled (final) products and markets Note: Lux classifies nano-enabled final products as either (1) final products with
nanostructured features or (2) final products containing nanoparticles. Nanomaterials,
intermediates, final products, or tools can be associated with end-use markets.
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End-Use Markets with Product and Firm Examples:
Electronics & IT (Lux and Freedonia): Examples: cell phone, computer
Manufacturing & Materials (Lux): Examples: construction, consumer vehicles,
plastic reinforcements (composites)
Healthcare & Life Sciences (Lux and Freedonia): Examples: sunscreen,
pharmaceuticals
Energy (Freedonia): Examples: batteries, fuel cells, solar cells
Nano-Enabled Final Product Resources o Woodrow Wilson Center (PEN): Inventory of consumer products includes: 806
products, 484 companies, and 24 countries.
o Lux Report, 4th & 5th ed., vol. I
Stage 4: Identify the types of tools needed in the following nano tool classifications
(Lux, 4th
& 5th
ed.)
Fabrication tools: includes: nanodevices
Modeling tools
Inspection tools: or instrumentation: includes: atomic force microscopy (AFM),
scanning electron microscopy (SEM), transmission electron microscopy (TEM),
differential scanning calorimetry, x-ray photoelectron spectroscopy, fourier transform
infrared spectroscopy, magnetic resonance imaging, confocal laser scanning, laser
scanning microscopy, x-ray diffraction, and mass spectrometry.
Optional Step 5
1) To go beyond considering just a nanomaterial, repeat steps 1-4 (specifically Step 4) for a
final product from one of the four final product markets or a location.
Example value chain for nanosilver We have created a value chain for nanosilver as an example, in a separate document. Compare
the example to these steps to help you understand what your value chain research data may look
like.
Using the nanotechnology value chain Now that you have constructed the value chain for a specific nanomaterial, technology or
product, you can use it as a tool for investigating research questions. Below are examples of
social science research areas and how you can approach them using a value chain framework.
Example research area: Risk, Regulation, & Public Perception
Identify supporting environment, institutional actors, risks, & policies
Key groupings of institutional actors: corporations, start-ups, NGOs, Regulatory
Agencies, Insurers, Toxicology researchers, journalists, and consumers
Plunkett‟s Nanotechnology List: Associations/Organizations (Plunkett, 2008)
CRS Nanotechnology: Policy Primer (Sargent, 2009)
CRS National Nanotechnology Initiative (Sargent, 2008c)
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CRS Federal Support for Nanotechnology Research 2007
CRS Nanotechnology & Environment, Health, Safety (Sargent, 2008a)
CRS Engineered Nanoscale Material/Regulatory Challenges (Schierow, 2008)
Lux Nanotech Report Nanotech Environmental, Health & Safety Risk (Lux 2006; 2007)
Project on Emerging Technologies: Environment, Health & Safety Research
Investigate the three types of risk:
1. Regulation
Voluntary reporting
Codes of conduct
Standards: national and international initiatives
2. Exposure risk: exposure and hazard; affects humans and the environment
3. Risk perception: public perception: no formula exists: media exposure
Example research area: Innovation & Communication: Inter-Firm Linkages
Identify linkages in the value chain by analyzing statistics on funding sources, patents,
publications, & firms. Identify barriers and missing, and needed linkages
General Resources:
CRS: Nanotechnology & U.S. Competitiveness (2008)
Barriers to the Diffusion of Nanotechnology (2008)
Nanopatenting Patterns in Relation to Product Life Cycle: (Alencar 2007)
USDOC: Report on the Barriers to Nanotechnology Commercialization (2007)
Related to Firms and/or Geographic Clusters:
Project on Emerging Nanotechnologies: (US NanoMetro Map)
Emergence of Nanodistricts in the United States: (Shapira & Youtie 2008)
Related to Nano Funding:
Lux Nanotech Report, 5th ed., vol I, Chapter 2: Funding Introduction, pg. 24-52
Plunkett: Industry Statistics 2008 and 2010
Related to Patents & IP:
Lux Report, 5th ed., vol I, Chapter 4: Patent Landscape, pg. 201-220
Lux Report, 5th ed., vol I, Chapter 3: Technology Profiles (profiles have a section on IP
outlook & patent statistics) pg. 54-200
Lux Report, 4th ed., vol. I: Key Patents: each category has a section on key patents
Lux Report, 4th ed., vol. I: IP Outlook: each category has a section on IP outlook
Related to Publications:
Nanotechnology publications & citations by leading countries & blocs (Youtie 2008)
Research area: Globalization & Governance
Identify Leading Firms (& common strategies) and Countries (or states)
Helpful Resources to Identify:
Company Profiles and Corporate Structure: o Lexis Nexis Academic: Corporate Affiliations
o Edgar 10K Filings
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Product Leaders:
o OneSource, Hoovers, Plunkett's, Mergent Online, Standard & Poor's, &
Datamonitor
Market Leaders: o Mintel Reports, Hoovers, Euromonitor, OneSource, & Plunkett's
Global Leadership: o Lux Nanotech Report, 4th and 5th ed., vol. I: section on key companies for each
classification
o OneSource, Plunkett's, Euromonitor, & Mergent Online
Leading Countries or States: o Historic country leaders: Investext
o Present: OneSource, Datamonitor, Plunkett's, US Commercial Service Reports,
Trade Data (Trade Stats Express, USITC, SITC, UN Comtrade)
o U.S. States: if NAICS can be identified, use the 2002 or 2007 Census
o Project on Emerging Nanotechnologies (U.S. NanoMetro Map)
Research Objectives: in-depth analysis of leading firms and product attributes to identify
sources of firm power and upgrading strategies in the value chain:
Capabilities: identify the population of firms and how capabilities changed over time
Complexity: does adding nano features to a product or process make the process more
difficult? How does this vary by product and technology?
Codifiability: how have advancements in technology and processing affected supply
chain logistics?
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Resources
Alencar, M., Porter, A., & Antunes, A. (2007). Nanopatenting patterns in relation to product life
cycle. Technological Forecasting & Social Change, 74(9), 1661-1680.
Freedonia. (2007). Nanomaterials (Freedonia Focus, September). The Freedonia Group, Inc.
Freedonia. (2008). Nanocomposites (Freedonia Focus, February). The Freedonia Group, Inc.
Freedonia. (2009). Nanomaterials (Freedonia Focus, March). The Freedonia Group, Inc.
Lux Research (2007). The Nanotech Report: Volume I & II (5th ed.). New York: Lux Research.
Lux Research (2006). The Nanotech Report: Volume I & II (4th ed.). New York: Lux Research.
Lux Research (2004). Sizing Nanotechnology’s Value Chain. New York: Lux Research.
McNeil, R., Lowe, J., Mastroianni, T., Cronin, J., & Ferk, D. (2007). Barriers to nanotechnology
commercialization. University of Illinois at Springfield & KT Consulting.
Plunkett, J. (Ed.). (2008). Plunkett's nanotechnology & MEMS industry almanac 2008. Houston,
TX: Plunkett Research Ltd.
Sargent, J. (2008a). Nanotechnology and environmental, health, and safety: Issues for
consideration (CRS Report for Congress: CRS RL34614). Washington, D.C.: Congressional
Research Service (CRS).
Sargent, J. (2008b). Nanotechnology and U.S. competitiveness: Issues and options (CRS Report
for Congress: CRS RL34493). Washington, D.C.: Congressional Research Service (CRS).
Sargent, J. (2008c). The national nanotechnology initiative. (CRS Report for Congress: CRS
RL34401). Washington, D.C.: Congressional Research Service (CRS).
Sargent, J. (2009). Nanotechnology: A policy primer (CRS Report for Congress: CRS RL34511).
Washington, D.C.: Congressional Research Service (CRS).
Schierow, L. (2008). Engineered nanoscale materials and derivative products: Regulatory
challenges (CRS Report for Congress: CRS RL34332). Washington, D.C.: CRS.
Shapira, P. & Youtie, J. (2008). Emergence of Nanodistricts in the United States: Path
Dependency or New Opportunities? Economic Development Quarterly.
Youtie, J. et al (2008). Nanotechnology publications and citations by leading countries and
blocs, Journal of Nanoparticle Research.